CN108692944A - A kind of moment transmitting device and engine testing system - Google Patents
A kind of moment transmitting device and engine testing system Download PDFInfo
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- CN108692944A CN108692944A CN201810700000.0A CN201810700000A CN108692944A CN 108692944 A CN108692944 A CN 108692944A CN 201810700000 A CN201810700000 A CN 201810700000A CN 108692944 A CN108692944 A CN 108692944A
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- 230000005540 biological transmission Effects 0.000 claims abstract description 52
- 238000000034 method Methods 0.000 abstract description 10
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- 238000009434 installation Methods 0.000 description 10
- 238000010586 diagram Methods 0.000 description 9
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- 230000009286 beneficial effect Effects 0.000 description 2
- 230000008901 benefit Effects 0.000 description 2
- 230000010339 dilation Effects 0.000 description 2
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Classifications
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01M—TESTING STATIC OR DYNAMIC BALANCE OF MACHINES OR STRUCTURES; TESTING OF STRUCTURES OR APPARATUS, NOT OTHERWISE PROVIDED FOR
- G01M15/00—Testing of engines
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01M—TESTING STATIC OR DYNAMIC BALANCE OF MACHINES OR STRUCTURES; TESTING OF STRUCTURES OR APPARATUS, NOT OTHERWISE PROVIDED FOR
- G01M15/00—Testing of engines
- G01M15/02—Details or accessories of testing apparatus
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- Testing Of Engines (AREA)
Abstract
The present invention relates to vehicle testing equipment, especially a kind of moment transmitting device and engine testing system transmit torque, including flexible transmission shaft and connector when moment transmitting device is used for Engine Block Test for engine;Flexible transmission shaft includes the input terminal for coupling torque loading device being oppositely arranged, and the output end for output torque;Output end and input terminal circumferentially limit connection;Output end is connected with connector, and connector with engine sprocket for being connected.Engine testing system includes moment transmitting device and Engine Block Test supporting rack.The moment transmitting device provided through the invention makes flexible transmission shaft stretch out when carrying out the test of engine, and connector is connected with engine sprocket, and the transmission shaft that stretches is retracted, and connector is detached with engine.The connection of this connector and engine sprocket and demolishing process are simple, efficient.
Description
Technical field
The present invention relates to a kind of vehicle testing equipment, especially a kind of moment transmitting device and engine testing system.
Background technology
Before engine manufacture, need to test engine.In test, need to the sprocket wheel input power on engine
Square makes engine work under the action of the moment of resistance with simulated resistance square, to judge whether the performance of engine meets
Design requirement.In the prior art, all it is by connecting chain on sprocket wheel, to real when to engine sprocket input torque
The transmission of existing torque.The test for carrying out engine in this way needs, by complicated installation process, to take before test
It is longer.
Invention content
The goal of the invention of the present invention is:It is asked for dismounting in engine testing process of the existing technology is inconvenient
Topic provides a kind of moment transmitting device and engine testing system.
To achieve the goals above, the technical solution adopted by the present invention is:
A kind of moment transmitting device transmits torque, including flexible transmission shaft and company when being used for Engine Block Test for engine
Fitting;Flexible transmission shaft includes the input terminal for coupling torque loading device being oppositely arranged, and for the defeated of output torque
Outlet;Output end and input terminal circumferentially limit connection;Output end is connected with connector, and connector is used for and engine sprocket phase
Even.The moment transmitting device provided through the invention makes flexible transmission shaft stretch out, connector when carrying out the test of engine
It is connected with engine sprocket, the transmission shaft that stretches is retracted, and connector is detached with engine.The company of this connector and engine sprocket
Connect it is simple with demolishing process, it is efficient.
As the preferred embodiment of the present invention, one end far from output end is equipped with for being grabbed with what sprocket wheel coordinated on connector
The end set of hand, handgrip has multiple fixture blocks, and the clamping space of the tooth for being clamped sprocket wheel is formed between two neighboring fixture block.Even
Connection between fitting and engine sprocket is realized by handgrip.When handgrip is moved along the axis direction for the transmission shaft that stretches, i.e.,
The connection with sprocket wheel may be implemented and detach.
As the preferred embodiment of the present invention, flexible transmission shaft includes the first axle body and the second axle body;The first axle body is hollow
Axis, the second axle body can be slided along the hollow parts of the first axle body.
As the preferred embodiment of the present invention, the second axle body is fixedly installed the first shaft coupling in one end that hollow parts are open
The inner wall of device, first shaft coupling is provided with the first latch, and the second latch being clamped with the first latch is provided on the outside of the second axle body,
First shaft coupling is rubber coupling.
For flexible transmission shaft when transmitting torque, torque passes to the first shackle member by the second axle body, is then passed to rubber
Shaft coupling, and the second shackle member is passed to by rubber coupling.When torque passes through rubber coupling, rubber coupling can
Play the role of shock-absorbing, to reduce the first axle body and the second axle body junction vibration, reduce noise, contribute to extend stretch
The service life of contracting transmission shaft.
As the preferred embodiment of the present invention, one end far from the second axle body is fixedly installed the second shaft coupling on the first axle body
The end of device, the second shaft joint is fixedly connected with the one end of handgrip far from fixture block, and second shaft coupling is rubber coupling.Second
Axis device is also configured as rubber coupling, and when in use, second shaft coupling can be played in the junction of the first axle body and driven member
Shock-absorbing functions, to further decrease noise.
As the preferred embodiment of the present invention, moment transmitting device further includes shell, and shell passes through bearing block with the first axle body
It is connected, the first axle body can be relative to housing into rotation.
As the preferred embodiment of the present invention, moment transmitting device further includes bearing, is arranged by the first sliding rail, bearing on shell
It is provided with the second sliding rail coordinated with the first sliding rail on one side.
The connection of the first axle body and bearing is realized by shell.So that the first axle body can either rotate, and can be opposite
Movement is generated in bearing.
As the preferred embodiment of the present invention, moment transmitting device further includes limit switch, limit switch include limiting slot and
Spring catch, limiting slot are set on shell, and the first pin hole and the second pin hole are equipped in limiting slot, mounting hole is provided on bearing,
Spring catch is connected with mounting hole, and spring catch is partially disposed in limiting slot, spring catch selectively with the first pin hole or second
Pin hole coordinates.
By above structure, limit switch can be used in the telescopic extensions of flexible transmission shaft.Spring catch can be in limiting slot
In the first pin hole and the second pin hole between slide, therefore the maximal dilation distance range of flexible transmission shaft is restricted to the first pin
The distance between hole and the second pin hole.When needing mobile the first axle body, spring catch is made to be detached with the first pin hole or the second pin hole,
Mobile the first axle body and shell, limiting slot will moves relative to spring catch, up to spring catch again with the first pin hole or second
Pin hole coordinates.
As the preferred embodiment of the present invention, handle is additionally provided on shell.Handle is set on shell, convenient for mobile in use
Shell.
The present invention also provides a kind of engine testing systems comprising Engine Block Test supporting rack and above-mentioned torque pass
Delivery device;Engine Block Test supporting rack is used to support engine, and when engine is placed on Engine Block Test supporting rack, torque is transmitted
The connector of device is corresponding with the position of engine sprocket.In the present invention, the connector of moment transmitting device and start chain
The position of wheel corresponds to, when engine is placed on Engine Block Test supporting rack, by stretching out on the moment transmitting device
Flexible transmission shaft, you can so that connector is connected with engine sprocket, pass through the flexible transmission on the moment transmitting device of retracting
Axis, you can so that connector is detached with engine sprocket.I.e.:When engine is placed on Engine Block Test supporting rack, engine
Line between sprocket wheel and connector is parallel or conllinear with the axis of flexible transmission shaft.
In conclusion by adopting the above-described technical solution, the beneficial effects of the invention are as follows:
1. the moment transmitting device provided through the invention makes flexible transmission shaft stretch out when carrying out the test of engine,
Connector is connected with engine sprocket, and the transmission shaft that stretches is retracted, and connector is detached with engine.This connector and start chain
The connection of wheel and demolishing process are simple, efficient;
2. the connection between connector and engine sprocket is realized by handgrip.Handgrip is along the axis side for the transmission shaft that stretches
To it is mobile when, you can to realize and the connection of sprocket wheel and detach.
Description of the drawings
Fig. 1 is the schematic diagram that engine test bracket provided in an embodiment of the present invention is connect with engine.
Fig. 2 is the partial enlarged view in the portions V in Fig. 1.
Fig. 3 is the partial enlarged view in the portions VI in Fig. 1.
Fig. 4 is the structural schematic diagram of the first tight lock part on vertical loading board.
Fig. 5 is the structural schematic diagram of exhaust pipe.
Fig. 6 is structural schematic diagram of the exhaust pipe under another visual angle.
Fig. 7 is the partial enlarged view in the portions VII in Fig. 6.
Fig. 8 is the structural schematic diagram of moment transmitting device provided by the invention.
Fig. 9 is the sectional view of moment transmitting device provided by the invention.
Figure 10 is structural schematic diagram of the moment transmitting device provided by the invention after removing bearing.
Figure 11 is structural schematic diagram of the moment transmitting device provided by the invention after removing bearing.
Figure 12 is structural schematic diagram when sprocket wheel provided by the invention coordinates with handgrip.
Figure 13 is engine test bracket provided by the invention and connection diagram of the engine under another visual angle.
Figure 14 is the partial enlarged view in the portions XIV in Figure 13.
Icon:1- Engine Block Test supporting racks;11- bottom plates;12- beams;13- supporting rods;14- vertical loading boards;15- second
Tight lock part;16- exhaust pipes;132- sliding slots;151- folders hook;152- operation portions;The first tight lock parts of 142-;162- first is in charge of;
164- second is in charge of;166- spherical surface tube heads;2- moment transmitting devices;21- the second axle bodies;22- the first axle bodies;23- connectors;
24- first shaft couplings;25- second shaft couplings;26- shells;27- bearings;The first sliding rails of 28-;The second latches of 212-;214- first
Latch;The first shackle members of 242-;252- installation parts;254- self-aligning bearings;232- handgrips;262- handles;The first pin holes of 264-;
The second pin holes of 266-;268- spring catch;2322- fixture blocks;3- engines;31- sprocket wheels.
Specific implementation mode
Below in conjunction with the accompanying drawings, the present invention is described in detail.
In order to make the purpose , technical scheme and advantage of the present invention be clearer, with reference to the accompanying drawings and embodiments, right
The present invention is further elaborated.It should be appreciated that described herein, specific examples are only used to explain the present invention, not
For limiting the present invention.
Embodiment 1
Please refer to Fig. 8-Figure 12.A kind of moment transmitting device 2 transmits torque when being tested for engine 3 for engine 3,
Including flexible transmission shaft and connector 23;Flexible transmission shaft includes the input for coupling torque loading device being oppositely arranged
End, and for the output end of output torque;Output end and input terminal circumferentially limit connection;Output end is connected with connector 23, even
Fitting 23 with 3 sprocket wheel 31 of engine for being connected.The moment transmitting device 2 provided through the invention, in the survey for carrying out engine 3
When examination, flexible transmission shaft is made to stretch out, connector 23 is connected with 3 sprocket wheel 31 of engine, and the transmission shaft that stretches is retracted, connector 23 and hair
Motivation 3 detaches.Connection and demolishing process of this connector 23 with 3 sprocket wheel 31 of engine are simple, efficient.
On the basis of above structure, one end far from output end is equipped with for being grabbed with what sprocket wheel 31 coordinated on connector 23
The end set of hand 232, handgrip 232 has multiple fixture blocks 2322, is formed between two neighboring fixture block 2322 for being clamped sprocket wheel 31
Tooth clamping space.Connection between 3 sprocket wheel 31 of connector 23 and engine is realized by handgrip 232.Handgrip 232 is along stretching
When the axis direction movement of contracting transmission shaft, you can to realize and the connection of sprocket wheel 31 and detach.
On the basis of above structure, flexible transmission shaft includes the first axle body 22 and the second axle body 21;The first axle body 22 is
Hollow shaft, the second axle body 21 can be slided along the hollow parts of the first axle body 22.
On the basis of above structure, the second axle body 21 is fixedly installed first shaft coupling in one end that hollow parts are open
24, the inner wall of first shaft coupling 24 is provided with the first latch 214, and 21 outside of the second axle body is provided with to be clamped with the first latch 214
The second latch 212, first shaft coupling 24 be rubber coupling.
For flexible transmission shaft when transmitting torque, torque passes to the first shackle member 242 by the second axle body 21, is then passed to
Rubber coupling, and the second shackle member is passed to by rubber coupling.When torque passes through rubber coupling, rubber coupling
Can play the role of shock-absorbing, to reduce the first axle body 22 and the second axle body 21 junction vibration, reduce noise, help
In the service life for extending the transmission shaft that stretches.
On the basis of above structure, one end far from the second axle body 21 on the first axle body 22 is fixedly installed the second shaft coupling
The end of device 25, the second shaft joint is fixedly connected with the one end of handgrip 232 far from fixture block 2322, and second shaft coupling 25 joins for rubber
Axis device.Second shaft coupling 25 is also configured as rubber coupling, when in use, second shaft coupling 25 can the first axle body 22 with from
Shock-absorbing functions are played in the junction of moving part, to further decrease noise.
On the basis of above structure, moment transmitting device 2 further includes shell 26, and shell 26 passes through axis with the first axle body 22
Bearing is connected, and the first axle body 22 can be rotated relative to shell 26.
On the basis of above structure, moment transmitting device 2 further includes bearing 27, is arranged by the first sliding rail on shell 26
28, bearing 27 is provided with the second sliding rail coordinated with the first sliding rail 28 on one side.
The first axle body 22 and the connection of bearing 27 are realized by shell 26.So that the first axle body 22 can either rotate, again
Movement can be generated relative to bearing 27.
On the basis of above structure, moment transmitting device 2 further includes limit switch, and limit switch includes limiting slot and bullet
Spring pin 268, limiting slot are set on shell 26, and the first pin hole 264 and the second pin hole 266 are equipped in limiting slot, is set on bearing 27
It is equipped with mounting hole, spring catch 268 is connected with mounting hole, and spring catch 268 is partially disposed in limiting slot, and spring catch 268 is optional
Coordinate with the first pin hole 264 or the second pin hole 266 with selecting.
By above structure, limit switch can be used in limiting the telescopic extensions of flexible transmission shaft.Spring catch 268 can be
It is slided between the first pin hole 264 and the second pin hole 266 in limiting slot, the maximal dilation distance range therefore quilt of the transmission shaft that stretches
It is limited to the distance between the first pin hole 264 and the second pin hole 266.When needing mobile the first axle body 22, make spring catch 268 with
First pin hole 264 or the separation of the second pin hole 266, mobile the first axle body 22 and shell 26, limiting slot will be relative to spring catch 268
It is mobile, until spring catch 268 coordinates with the first pin hole 264 or the second pin hole 266 again.
On the basis of above structure, handle 262 is additionally provided on shell 26.Handle 262 is set on shell 26, convenient for making
With middle mobile shell 26.
The beneficial effects of the present invention are:
1. the moment transmitting device 2 provided through the invention makes flexible transmission shaft stretch when carrying out the test of engine 3
Go out, connector 23 is connected with 3 sprocket wheel 31 of engine, and the transmission shaft that stretches is retracted, and connector 23 is detached with engine 3.This connection
Connection and demolishing process of the part 23 with 3 sprocket wheel 31 of engine are simple, efficient;
2. the connection between 3 sprocket wheel 31 of connector 23 and engine is realized by handgrip 232.Handgrip 232 is along flexible biography
When the axis direction movement of moving axis, you can to realize and the connection of sprocket wheel 31 and detach;
3. flexible transmission shaft, when transmitting torque, torque passes to the first shackle member 242 by the second axle body 21, then transmits
The second shackle member is passed to rubber coupling, and by rubber coupling.When torque passes through rubber coupling, rubber shaft coupling
Device can play the role of shock-absorbing, to reduce the first axle body 22 and the second axle body 21 junction vibration, reduce noise, have
Help extend the service life of flexible transmission shaft.
Embodiment 2
Please refer to Fig.1-Figure 14.The present invention provides a kind of engines 3 to test system.This engine 3 tests system packet
Include Engine Block Test supporting rack 1 and moment transmitting device 2.
When carrying out the test of engine 3, Engine Block Test supporting rack 1 provided by the invention is used to support engine 3.Torque
Transfer device 2 is used to the output torque of loading device passing to engine 3, so that engine 3 can be in certain resistance
It works under the action of torque.
Specifically, Engine Block Test supporting rack 1 includes bottom plate 11, beam 12, supporting rod 13, vertical loading board 14 and exhaust pipe
16.The quantity of supporting rod 13 is four.The quantity of vertical loading board 14 is two.
Beam 12 is set on bottom plate 11, is connected by beam 12 between 13 one end of supporting rod and bottom plate 11.Supporting rod
13 other ends are equipped with sliding slot 132.
Vertical loading board 14 is equipped with the first tight lock part 142 being adapted to sliding slot 132.First tight lock part 142 is set on annular groove
Structure.The setting of first tight lock part 142 so that size of the vertical loading board 14 at the first tight lock part 142 is less than the ruler of sliding slot 132
It is very little, and size of the vertical loading board 14 in 142 both sides of the first tight lock part is more than the size of sliding slot 132.14 one end of vertical loading board is equipped with first
Tight lock part 142,14 other end of vertical loading board are equipped with the first tight lock part 142.When in use, vertical loading board 14 is connected with for engine 3,
Specifically, please referring to Fig.1 4, engine 3 is equipped with the hole coordinated with vertical loading board 14, and vertical loading board 14 passes through the hole.On vertical loading board 14
The first tight lock part 142 coordinate with sliding slot 132, and the size due to vertical loading board 14 in 142 both sides of the first tight lock part is more than sliding slot
132 size, therefore, vertical loading board 14 can not generate displacement on the length direction of vertical loading board 14, so that engine 3 is being hung
It fills and is fixed on the length direction of bar 14.
It further include the second tight lock part 15 on supporting rod 13.Second tight lock part 15 is fast clip, model DE-STA-CO companies
3051 serial fast clips.Specifically, the second locking, which includes folder, hooks 151, lever and fixed part.Wherein, fixed part is fixedly connected
In on supporting rod 13.Folder hooks 151 to be slidably connected with fixed part, and 151 other ends of folder hook can be with the lifting that is placed in sliding slot 132
Bar 14 connects.Operation portion 152 is hinged with fixed part, and folder hooks 151 one end far from vertical loading board 14 and is connected with operation portion 152.It is fixed
Portion is equipped with the clamping portion being clamped with operation portion 152, when operation portion 152 is in angle with supporting rod 13, operation portion 152 and clamping
Part is from folder hooks 151 and can be detached from from vertical loading board 14.When operation portion 152 is bonded with supporting rod 13, operation portion 152 and card
Socket part is clamped, and folder hooks 151 clamping vertical loading boards 14 so that the position of vertical loading board 14 is fixed in the short transverse of supporting rod 13.
The depth direction of sliding slot 132 is used to be consistent with the exhaust outlet direction of engine 3.The height of exhaust pipe 16 is in this way
Setting:When vertical loading board 14 slides into the bottom of sliding slot 132 along sliding slot 132, one end of exhaust outlet and the exhaust outlet phase of engine 3
Even.Specifically, setting first is in charge of 162 and second and is in charge of 164 on exhaust pipe 16, first, which is in charge of 162, second, is in charge of 164 and sets
It sets so that exhaust pipe 16 is at y-type structure.First, which is in charge of 162 one end, is in charge of 164 one end with second and is connected.First to be in charge of 162 another
The end at end is equipped with spherical surface tube head 166, and the second end for being in charge of 164 other ends is equipped with spherical surface tube head 166.
Spherical surface tube head 166 is the spherical shell structure of both ends perforation, and one end that spherical surface tube head 166 is relatively large in diameter is used for and first point
Pipe 162 or the second is in charge of 164 and is connected.
Since the direction of sliding slot 132 and the direction of 3 exhaust outlet of engine are consistent, when vertical loading board 14 is slided along sliding slot 132
When moving to the bottom of sliding slot 132, spherical surface tube head 166 can coordinate with the exhaust outlet of engine 3 and be connected.Spherical surface tube head 166 with
During the exhaust outlet of engine 3 is connected, exhaust outlet of the smaller one end of the diameter of spherical surface tube head 166 first with engine 3
It is in contact, is easy to that spherical surface tube head 166 is made to enter 3 exhaust outlet of engine.Then as stepping into for spherical surface tube head 166, spherical surface
Gap between tube head 166 and the exhaust outlet of engine 3 tapers into, until the outer wall of spherical surface tube head 166 is vented with engine 3
Mouthful inner wall between generate abutting, realize spherical surface tube head 166 and started being connected between exhaust outlet.During the test, it sends out
Motivation 3 may will produce a series of vibration, since spherical surface tube head 166 is partly or entirely placed in exhaust outlet, this
Kind structure can resist a degree of vibration, and making will not be since test be shaken between spherical surface tube head 166 and the exhaust outlet of engine 3
It moves and detaches.
In conclusion when using Engine Block Test supporting rack 1 provided by the invention, make vertical loading board 14 and engine first
3 are connected, specifically, the hole for being adapted to vertical loading board 14 can be arranged on engine 3.Then by engine 3 and vertical loading board
14 are lifted into the top of the Engine Block Test supporting rack 1, so that the first tight lock part 142 on vertical loading board 14 is entered in sliding slot 132, so
Engine 3 will be slided along sliding slot 132 together with vertical loading board 14 afterwards, when sliding into 132 bottom of sliding slot, the exhaust outlet of engine 3 with
The cooperation of spherical surface tube head 166 on exhaust pipe 16 is connected, and locks the second tight lock part 15.At this point, engine 3 is high in supporting rod 13
Displacement on degree direction is limited by the second tight lock part 15, and displacement of the engine 3 on the length direction of vertical loading board 14 is by the first lock
Tight portion 142 and the cooperation of sliding slot 132 limit, so that the position of engine 3 is fixed.After engine 3 is fixed, sending out
Loading moment is tested in motivation 3.
3 test system of engine provided in an embodiment of the present invention passes torque to engine by moment transmitting device 2
3。
Specifically, the input terminal of moment transmitting device 2 is used to be connected with existing torque loading device, moment transmitting device
2 output end with the sprocket wheel 31 on engine 3 for being connected.
It includes connector 23 and flexible transmission shaft that torque, which passes on device,.Flexible transmission shaft one end is used for and torque loading device
It is connected, the flexible transmission shaft other end is connected with 23 one end of connector, and 23 other end of connector is adapted to sprocket wheel 31.
Connector 23 is tubular structure.One end that connector 23 is used to be connected with flexible transmission shaft is equipped with flange, connector
23 other ends are equipped with the handgrip 232 for coordinating with sprocket wheel 31.Flexible transmission shaft can stretch out, so that handgrip 232 and sprocket wheel 31
It is connected;Flexible transmission shaft can retract, so that handgrip 232 is detached with sprocket wheel 31.When handgrip 232 is connected with sprocket wheel 31, handgrip 232
It can be rotated together with movable sprocket 31.
Specifically, handgrip 232 is cylinder-like structure.The end of one end far from ring flange is equipped with multiple cards on handgrip 232
Block 2322, multiple fixture blocks 2322 are distributed along the circumferencial direction of handgrip 232.Fixture block 2322 extends along the axis direction of handgrip 232.Card
Gap between block 2322 and fixture block 2322 is according to following standard setting:Between two adjacent fixture blocks 2322, it can allow for
The tooth or several teeth being placed on sprocket wheel 31, and one of fixture block 2322 and 31 tooth contact of sprocket wheel, another fixture block
2322 also with 31 tooth contact of sprocket wheel.For being contact surface with the face of 31 tooth contact of sprocket wheel on further fixture block 2322.Contact surface
Profile be adapted to the profile of 31 tooth of sprocket wheel so that between 31 tooth of contact surface and sprocket wheel can have larger contact area, make
Pressure on 31 tooth of contact surface and sprocket wheel can control the service life that handgrip 232 is conducive to extend in smaller value, also favorably
It is damaged during the test in avoiding sprocket wheel 31.
By above-mentioned structure design, when handgrip 232 rotates, pressure is generated between 31 tooth of fixture block 2322 and sprocket wheel, is made
Obtaining handgrip 232 can rotate with movable sprocket 31.To make handgrip 232 be detached with sprocket wheel 31, then moved along the axial direction of handgrip 232
Dynamic handgrip 232.The movement of handgrip 232 in axial direction is realized by flexible transmission shaft.
Specifically, flexible transmission shaft includes bearing 27, the first axle body 22 and the second axle body 21.21 one end of the second axle body is used for
It is connected with torque loading device, 21 other end of the second axle body is slideably connected with 22 one end of the first axle body, and the first axle body 22 is another
One end is connected with connector 23.
It is realized in slidably being connected of the first axle body 22 and the second axle body 21:The first axle body 22 is hollow shaft, the
The end of one axis body 22 is equipped with first shaft coupling 24, and the first shackle member 242, the first shackle member 242 are equipped in first shaft coupling 24
Outside is connected with shaft coupling, and 242 inside of the first shackle member is equipped with the first latch 214, and 21 outside of the second axle body is equipped with the second latch
212.First latch 214 and the cooperation of the second latch 212, the end of the second axle body 21 can be placed in the hollow parts of the first axle body 22
In.
Above-mentioned structure design so that the second axle body 21 rotation when, can drive the first shackle member 242, shaft coupling and
The first axle body 22 rotates.Second latch 212 extends along the axial direction of the second axle body 21 so that the first latch 214 and second blocks
Tooth 212 can generate relative motion on the axis direction of the second axle body 21, to make the first axle body 22 and the second axle body 21
Total length can be decreased or increased.
One end far from the second axle body 21 on the first axle body 22 is fixedly linked with second shaft coupling 25.Second shaft coupling 25
End is fixedly linked with 252 end of installation part.Installation part 252 is connected with the flange on connector 23.The first axle body 22 is sliding
When, second shaft coupling 25, installation part 252 and connector 23 can be driven to slide together.The first axle body 22 also can in rotation
Shaft coupling, installation part 252 and connector 23 is driven to rotate together.
Installation part 252 is equipped with mounting shaft hole, also passes through 254 phase of self-aligning bearing between the first axle body 22 and mounting shaft hole
Even, for adjusting the concentricity between installation part 252 and the first axle body 22, to reduce due to installation part 252 and the first axle body
The relatively low vibration brought of concentricity between 22, avoids the vibration damage equipment in test process.
First shaft coupling 24 and second shaft coupling 25 are rubber coupling, in use, can reduce flexible transmission shaft
Vibration.
22 external rings of the first axle body are equipped with shell 26, and the shell 26 is connected with the first axle body 22 by bearing block,
The first axle body 22 can be rotated relative to shell 26.Shell 26 is equipped with the first sliding rail 28, and bearing 27 is equipped with and the first sliding rail
Second sliding rails of 28 adaptations, the cooperation of the first sliding rail 28 and the second sliding rail so that shell 26 can drive the first axle body 22 relative to
Bearing 27 generates sliding.
Flexible transmission shaft is equipped with limit switch, and limit switch is for limiting the stroke that shell 26 is slided relative to bearing 27
Length.Specifically, shell 26 is equipped with limiting slot, it is equipped with the first pin hole 264 and the second pin hole 266 in limiting slot, on bearing 27
Equipped with upper mounting hole, a spring catch 268 is connected with mounting hole, and spring catch 268 is partially disposed in limiting slot.Moving telescopic passes
Moving axis, until spring catch 268 is moved at the first pin hole 264, spring catch 268 pops up, and coordinates with the first pin hole 264, at this point, stretching
Contracting propeller shaft length is fixed;To retract flexible transmission shaft, the knob on torsional spring pin 268 makes the bullet in the first pin hole 264
Spring pin 268 is retracted, you can moving telescopic transmission shaft again.The strange accurate VCN612-AK of 268 adoptable model of spring catch dimension
Series.
Handle 262 is additionally provided on shell 26, convenient for moving the first axle body 22 when test.
When using moment transmitting device 2 provided by the invention, so that the second axle body 21 is connected with torque loading device, catch
262 mobile shell 26 of handle makes the handgrip 232 on connector 23 coordinate with the sprocket wheel 31 on engine 3, unlatching moment load dress
It sets, the torque on torque loading device passes through the second axle body 21, the second latch 212, the first latch 214, first shaft coupling 24,
One axis body 22, second shaft coupling 25, installation part 252 and connector 23 are transmitted eventually by the fixture block 2322 on connector 23
To sprocket wheel 31 so that engine 3 can work under the operative condition of the moment of resistance, realize the test to engine 3;Test is completed
Afterwards, close moment loading device catches handle 262, and the fixture block 2322 on connector 23 is made to be detached i.e. with 3 sprocket wheel 31 of engine
It can.
When being tested engine 3 using 3 test device of engine provided by the invention, first make vertical loading board 14 and hair
The cooperation of motivation 3 is connected, and engine 3 is lifted on Engine Block Test supporting rack 1, and vertical loading board 14 is made to coordinate with sliding slot 132, this
When, the exhaust outlet of engine 3 coordinates automatically with the exhaust pipe 16 on Engine Block Test supporting rack 1, passes through 142 He of the first tight lock part
Second tight lock part 15 locks engine 3, and the torque of torque loading device is then passed to engine by moment transmitting device 2
Sprocket wheel 31 on 3 carries out engine 3 and tests.After the completion of test, make the fixture block 2322 on connector 23 and 3 sprocket wheel 31 of engine
Separation unlocks the second tight lock part 15, lifts engine 3, engine 3 is made to be detached with Engine Block Test supporting rack 1.
3 test device of engine provided in an embodiment of the present invention has the advantages that:
1. 3 test device of engine provided in an embodiment of the present invention use Engine Block Test supporting rack 1, can easily into
The lifting of row engine 3, and tested, it is easy to operate, the efficiency of test can be improved, complicated installation will not be avoided
And disassembly process;
2. 3 test device of engine provided in an embodiment of the present invention carries out the transmission of torque by torque transmission device,
When test, telescopic transmission shaft is pulled open, handgrip 232 is made to coordinate with the sprocket wheel 31 on engine 3;After the completion of test, make handgrip
232 detach with the sprocket wheel 31 on engine 3, and the operating process of whole process is simple.
The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all essences in the present invention
All any modification, equivalent and improvement etc., should all be included in the protection scope of the present invention made by within refreshing and principle.
Claims (10)
1. a kind of moment transmitting device transmits torque when being used for Engine Block Test for engine, which is characterized in that passed including flexible
Moving axis and connector;
The flexible transmission shaft includes the input terminal for coupling torque loading device being oppositely arranged, and for output torque
Output end;
The output end and the input terminal circumferentially limit connection;
Output end is connected with connector, and connector with engine sprocket for being connected.
2. moment transmitting device according to claim 1, which is characterized in that one end far from output end on the connector
Equipped with the handgrip for coordinating with the sprocket wheel, the end set of the handgrip has multiple fixture blocks, shape between two neighboring fixture block
At the clamping space of the tooth for being clamped the sprocket wheel.
3. moment transmitting device according to claim 2, which is characterized in that the flexible transmission shaft include the first axle body and
The second axle body;
The first axle body is hollow shaft, and the second axle body can be slided along the hollow parts of the first axle body.
4. moment transmitting device according to claim 3, which is characterized in that the second axle body is open in hollow parts
One end is fixedly installed first shaft coupling, and the central part of the first shaft coupling is provided with the first shackle member, first card
The inner wall of fitting is provided with the first latch, and the second latch being clamped with first latch is provided on the outside of the second axle body,
First shaft coupling is rubber coupling.
5. moment transmitting device according to claim 4, which is characterized in that far from second axis on the first axle body
One end of body is fixedly installed second shaft coupling, the end of the second shaft coupling and the one end of the handgrip far from the fixture block
It is fixedly connected, second shaft coupling is rubber coupling.
6. moment transmitting device according to claim 5, which is characterized in that further include shell, the shell and described the
One axis body is connected by bearing block, and the first axle body can be relative to the housing into rotation.
7. moment transmitting device according to claim 6, which is characterized in that further include bearing, on the shell setting by
First sliding rail, the bearing are provided with the second sliding rail coordinated with first sliding rail on one side.
8. moment transmitting device according to claim 7, which is characterized in that further include limit switch, the limit switch
Including limiting slot and spring catch, the limiting slot is set on the shell, and the first pin hole and second are equipped in the limiting slot
Pin hole is provided with mounting hole on the bearing, and the spring catch is connected with the mounting hole, and the spring catch is partially disposed in
In the limiting slot, the spring catch selectively coordinates with first pin hole or second pin hole.
9. moment transmitting device according to claim 6, which is characterized in that be additionally provided with handle on the shell.
10. a kind of engine testing system, which is characterized in that including arbitrary in Engine Block Test supporting rack and claim 1-9
Moment transmitting device described in one;
The Engine Block Test supporting rack is used to support the engine, and the engine is placed in the Engine Block Test supporting rack
When upper, the connector of the moment transmitting device is corresponding with the position of the engine sprocket.
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CN201810700000.0A CN108692944B (en) | 2018-06-29 | 2018-06-29 | Moment transmission device and engine test system |
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CN201810700000.0A CN108692944B (en) | 2018-06-29 | 2018-06-29 | Moment transmission device and engine test system |
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CN108692944B CN108692944B (en) | 2024-02-02 |
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Cited By (1)
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CN111609956A (en) * | 2020-05-20 | 2020-09-01 | 中国第一汽车股份有限公司 | Crankshaft sprocket slippage torque testing device |
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